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Volume 9, Issue 3
Global Existence for a Class of Non-Fickian Polymer-penetrant Systems

Bei Hu & Jianhua Zhang

J. Part. Diff. Eq., 9 (1996), pp. 193-208.

Published online: 1996-09

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  • Abstract
This paper deals with a class of strongly coupled and highly degenerate nonlinear parabolic systems, which arises from a model describing non-Fickian diffusion of penetrant into glassy polymers. By means of a fixed point argument and a priori estimates, we establish the global existence and uniqueness for the systems.
  • Keywords

A priori estimates nonlocal PDE global existence

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@Article{JPDE-9-193, author = {}, title = {Global Existence for a Class of Non-Fickian Polymer-penetrant Systems}, journal = {Journal of Partial Differential Equations}, year = {1996}, volume = {9}, number = {3}, pages = {193--208}, abstract = { This paper deals with a class of strongly coupled and highly degenerate nonlinear parabolic systems, which arises from a model describing non-Fickian diffusion of penetrant into glassy polymers. By means of a fixed point argument and a priori estimates, we establish the global existence and uniqueness for the systems.}, issn = {2079-732X}, doi = {https://doi.org/}, url = {http://global-sci.org/intro/article_detail/jpde/5621.html} }
TY - JOUR T1 - Global Existence for a Class of Non-Fickian Polymer-penetrant Systems JO - Journal of Partial Differential Equations VL - 3 SP - 193 EP - 208 PY - 1996 DA - 1996/09 SN - 9 DO - http://doi.org/ UR - https://global-sci.org/intro/article_detail/jpde/5621.html KW - A priori estimates KW - nonlocal PDE KW - global existence AB - This paper deals with a class of strongly coupled and highly degenerate nonlinear parabolic systems, which arises from a model describing non-Fickian diffusion of penetrant into glassy polymers. By means of a fixed point argument and a priori estimates, we establish the global existence and uniqueness for the systems.
Bei Hu & Jianhua Zhang. (2019). Global Existence for a Class of Non-Fickian Polymer-penetrant Systems. Journal of Partial Differential Equations. 9 (3). 193-208. doi:
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